Index
Motor Oil 105
Part Five. Let’s use top gear:
Let’s
go racing. I will discuss driving in traffic jams in the Florida summer
as well as racing in Sebring though there is no commonality. People
lump these two driving situations together but there is no overlap.
On
the race track one usually uses all the BHP their engine can give them.
You briefly step on the brakes for the corner then put the pedal to the
metal the rest of the time. Your oil will get up to 302 F, but your
cooling system is around 212 F. The engine produces tremendous heat but
can only pass it off so fast to the cooling system. There is a lot of
air moving past the cooling radiator so the antifreeze / coolant is
able to get rid of the extra heat from this part of the system with
relative ease.
The temperature of oil on your gauge is not as
hot as it really gets. This temperature is an average with oil from
different parts of the motor. Some parts are hotter than others. It is
said that some of the oil gets as hot as 400 or 500 F in these racing
situations.
In an earlier section I said that thicker oils are
usually needed in racing situations but not necessarily. Remember that
a major function of oil is to cool the inside of your engine. In ASTM D
4485 3.1.4: “Terminology: Engine oil- a liquid that reduces friction
and wear between moving parts within an engine, and also serves as a
coolant.” Since the oil with a viscosity of 10 cS at 212 F thins to a
viscosity of 3 cS at 302 F we will get more flow. The pressure will go
down some as well. This is OK as long as we have a minimum of pressure
to move the oil.
This increased flow will result in increased
cooling by the oil. This is a good thing. You would probably want more
oil flow in these situations and you get it. The hotter oil thins and
this increases flow. The higher flow works harder to separate the
engine parts that are under very high stress. It all works out for the
better. Higher revving engines need thinner oils. You do not
necessarily need to go to a thicker oil while racing. Only
experimentation will tell.
The best way to figure out what
viscosity of oil you need is to drive the car in the conditions you
will use. Then use the oil viscosity that gives you 10 PSI per 1,000
RPM under those circumstances. For some reason very few people are able
to get this simple principal correct. I cannot explain further.
These
same rules apply to engines of any age, loose or tight. Just because
your engine is old does not mean it needs a thicker oil. It will need a
thicker oil only if it is overly worn, whether new or old. Yet the same
principals of 10 PSI per 1,000 RPM still apply. In all cases you need
to try different weight oils and see what happens. Then choose the
correct viscosity.
I am using 0W-20 in my Ferrari 575 Maranello
right now. It has over 5,000 miles on the clock. There will be a day
(my estimate is 50,000 miles) when I will have to go to a 0W-30. In the
future I will have to increase the viscosity to a 0W-40, then a 0W-50,
maybe. I will use whatever it takes to give me 75 PSI at 6,000 RPM
during the lifetime of my engine. This formula works in all situations.
Some
people have tried this and occasionally get a somewhat low oil pressure
while at idle. This is fine. There is no stress on parts at idle, the
smallest oil flow will do the trick. It is at higher RPM where more BHP
is produced. This is where we need the flow. Remember that Ferrari uses
75 PSI at 6,000 RPM as the place to test your oil viscosity needs. If
your oil gives this value under your driving conditions then your
lubrication system has been maximized. Period.
Do not go 5,000
miles with the same oil if you are racing your car. You should change
the oil every 1 or 2,000 miles. If you drive your car around town then
you need to change the oil for that situation. Use racing oil on the
track and urban oil around town. The best situation as described by
Ferrari is to use the 0W-40 around town and the 10W-60 “racing oil” on
the track. It has to be that “hot” track though. A compromise situation
would be to use the 5W-40 for both but this may not be optimal.
Certainly, if you are just an urban driver as me use the 0W-40 or even
a thinner oil as I do in my Maranello. Again, I use the 0W-20.
FYI. The Formula 1 cars that run at 15,000 RPM and higher use straight
5 and 10 weight oils.
Now
let me discuss what people think is a similar situation to racing. That
is hot summer traffic jam driving. Your car should be able to handle
this. If you have problems then you have a problem with your car, most
likely in need of a cooling system overhaul.
When you drive that
car down the road mid-winter in upstate New York or mid-summer in
Florida the engine and oil temperatures will be around 212 F. But your
Florida vacation is suddenly altered by a hurricane. You have to get
out of Tampa, but so do a million other people. It is now 95 F and you
are in a snarl. Everyone thinks they need a thicker oil for this
situation. This is false.
Your engine is not producing much heat
at low RPM and low BHP output. The production of heat is relatively
slow. It can easily be transmitted to your cooling system. The problem
is that your cooling system has trouble getting rid of the heat. The
oil and the coolant will slowly rise in temperature. They both rise
together. The increase is no big deal for your oil. It goes to 220,
then 230 F. The problem is that the cooling system can only handle heat
up to 230 F. After that you overheat the cooling system and the car
must be shut off. The oil never got that hot, It was just that the
water got a little hotter than its system design.
You now see
that overheating in traffic is a cooling system problem and not an oil
system problem. Do not change to a thicker oil based on your traffic
situation.
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